The Effect of Short-term Muscle Vibration on Knee Joint Torque and Muscle Firing Patterns during a Maximal Voluntary Isometric Contraction

Korean Journal of Sport Biomechanics Pub Date : 2017-06-30 DOI:10.5103/KJSB.2017.27.2.83

Jiseop Lee, Junkyung Song, Jooeun Ahn, Jaebum Park

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引用次数: 3

Abstract

Objective: To investigate the effect of short-term vibration frequencies on muscle force generation capabilities. Method: Six healthy participants were recruited for this study and only their dominant leg was tested. The subjects were tested under five conditions of vibration frequencies with constant amplitude: 0 Hz (no vibration), 30 Hz, 60 Hz, and 90 Hz, and the vibration amplitude was 10 mm for all frequency conditions. The vibration was applied to the rectus femoris (RF). The subjects were then instructed to maintain a steadystate isometric knee joint torque (100 Nm) for the first 6 s. After the steady-state torque production, the subjects were required to produce isometric knee joint torque by leg extension as hard as possible with a start signal within the next 3 s. The vibration was applied for ~4 s starting from 1 s before initiation of the change in the steady-state knee joint torque. Results: The results showed that the maximum voluntary torque (MVT) of the knee joint increased with the vibration frequencies. On average, the MVTs were 756.47 Nm for 0 Hz (no vibration) and 809.61 Nm for 90 Hz. There was a significant positive correlation (r = 0.71) between the MVTs and integrated electromyograms (iEMGs). Further, the co-contraction indices (CCIs) were computed, which represent the ratio of the iEMGs of the antagonist muscle to the iEMGs of all involved muscles. There was a significant negative correlation (r = 0.62) between the CCIs and MVTs, which was accompanied by a significant positive correlation (r = 0.69) between the iEMGs of the vibrated muscle (RF). There was no significant correlation between the MVTs and iEMGs of the antagonist muscle. Conclusion: The results of this study suggest that the short-term vibration on the muscle increases the level of muscle activation possibly owing to the increased Ia afferent activities, which enhances the muscle force generation capability.

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短期肌肉振动对最大自主等距收缩时膝关节扭矩和肌肉放电模式的影响

目的:探讨短期振动频率对肌肉发力能力的影响。方法:本研究招募6名健康受试者，仅对其主腿进行测试。受试者在0 Hz(无振动)、30 Hz、60 Hz、90 Hz五种恒幅振动频率条件下进行测试，所有频率条件下的振动幅值均为10 mm。振动作用于股直肌(RF)。然后，受试者被要求在前6秒内保持稳定的膝关节等距扭矩(100 Nm)。在稳态扭矩产生后，受试者被要求在接下来的3秒内尽可能用力地通过伸腿产生等距膝关节扭矩，并发出开始信号。从稳态膝关节转矩变化开始前1 s开始，振动持续约4 s。结果:膝关节的最大自主扭矩(MVT)随振动频率的增加而增加。平均mvt为0 Hz(无振动)时756.47 Nm, 90 Hz时809.61 Nm。mvt与综合肌电图(iEMGs)呈显著正相关(r = 0.71)。进一步，计算共收缩指数(CCIs)，它代表拮抗剂肌肉的iemg与所有受累肌肉的iemg之比。CCIs与mvt呈显著负相关(r = 0.62)，而振动肌(RF)的iemg呈显著正相关(r = 0.69)。拮抗肌的mvt与iemg之间无显著相关性。结论:本研究结果提示，短期振动对肌肉的刺激可能是由于Ia传入活动增加，从而提高了肌肉的激活水平，从而增强了肌肉的发力能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Korean Journal of Sport Biomechanics

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